#include "colors.h"
#include <stdio.h>
#include <math.h>
#include <stdbool.h>

#define RGB_BLACK 0,0,0
#define RGB_WHITE 255,255,255
#define RGB_RED 255,0,0
#define RGB_LIME 0,255,0
#define RGB_BLUE 0,0,255
#define RGB_YELLOW 255,255,0
#define RGB_CYAN 0,255,255
#define RGB_MAGENTA 255,0,255
#define RGB_SILVER 192,192,192
#define RGB_GREY 128,128,128
#define RGB_MAROON 128,0,0
#define RGB_OLIVE 128,128,0
#define RGB_GREEN 0,128,0
#define RGB_PURPLE 128,0,128
#define RGB_TEAL 0,128,128
#define RGB_NAVY 0,0,128

#define HSL_BLACK   0,0.0f,0.0f
#define HSL_WHITE   0,0.0f,1.0f
#define HSL_RED     0,1.0f,0.5f
#define HSL_LIME    120,1.0f,0.5f    
#define HSL_BLUE    240,1.0f,0.5f    
#define HSL_YELLOW  60,1.0f,0.5f
#define HSL_CYAN    180,1.0f,0.5f
#define HSL_MAGENTA 300,1.0f,0.5f
#define HSL_SILVER  0,0.0f,0.75f
#define HSL_GREY    0,0.0f,0.50f
#define HSL_MAROON  0,1.0f,0.25f
#define HSL_OLIVE   60,1.0f,0.25f
#define HSL_GREEN   120,1.0f,0.25f
#define HSL_PURPLE  300,1.0f,0.25f
#define HSL_TEAL    180,1.0f,0.25f
#define HSL_NAVY    240,1.0f,0.25f

#define ERROR_TOLERANCE 0.01

#define CLR4BIT 16

bool trgb2hsl(const int r, const int g, const int b, 
              const int h, const float s, const float l) {
    bool result = true;
    struct Rgb x;
    x.r = r;
    x.g = g;
    x.b = b;
    struct Hls y;
    rgb2hsl(&y, &x);
    if (y.h == h && fabs(y.s - s) <= ERROR_TOLERANCE && fabs(y.l - l) <= ERROR_TOLERANCE) {
//        printf("COLOR CONVERSION OK!\n");
        ;
    } else {
        printf("COLOR CONVERSION UNACCEPTABLE\n\texpected: %d %0.2f %0.2f\n", h, s, l);
        result = false;
    }
    printf("\t%d %0.2f %0.2f\n", y.h, y.s, y.l);
    return result;
}

void test_rgb2hsl(bool * const r) {
    r[0] = trgb2hsl(RGB_BLACK, HSL_BLACK);
    r[1] = trgb2hsl(RGB_WHITE, HSL_WHITE);
    r[2] = trgb2hsl(RGB_RED, HSL_RED);
    r[3] = trgb2hsl(RGB_LIME, HSL_LIME);
    r[4] = trgb2hsl(RGB_BLUE, HSL_BLUE);
    r[5] = trgb2hsl(RGB_YELLOW, HSL_YELLOW);
    r[6] = trgb2hsl(RGB_CYAN, HSL_CYAN);
    r[7] = trgb2hsl(RGB_MAGENTA, HSL_MAGENTA);
    r[8] = trgb2hsl(RGB_SILVER, HSL_SILVER);
    r[9] = trgb2hsl(RGB_GREY, HSL_GREY);
    r[10] = trgb2hsl(RGB_MAROON, HSL_MAROON);
    r[11] = trgb2hsl(RGB_OLIVE, HSL_OLIVE);
    r[12] = trgb2hsl(RGB_GREEN, HSL_GREEN);
    r[13] = trgb2hsl(RGB_PURPLE, HSL_PURPLE);
    r[14] = trgb2hsl(RGB_TEAL, HSL_TEAL);
    r[15] = trgb2hsl(RGB_NAVY, HSL_NAVY);
}

bool thls2rgb(int h, float s, float l, int r, int g, int b) {
    bool result = true;
    struct Hls x;
    x.h = h;
    x.s = s;
    x.l = l;
    struct Rgb y;
    hsl2rgb(&y, &x);
    if (y.r == r && y.g == g && y.b == b) {
        ;
    } else {
        printf("COLOR CONVERSION INEXACT\n\texpected: %d %d %d\n", r, g, b);
        result = false;
    }
    printf("%d %d %d\n", y.r, y.g, y.b);
    return result;
}

void test_hsl2rgb(bool * const r) {
    r[0] = thls2rgb(HSL_BLACK, RGB_BLACK);
    r[1] = thls2rgb(HSL_WHITE, RGB_WHITE);
    r[2] = thls2rgb(HSL_RED, RGB_RED);
    r[3] = thls2rgb(HSL_LIME, RGB_LIME);
    r[4] = thls2rgb(HSL_BLUE, RGB_BLUE);
    r[5] = thls2rgb(HSL_YELLOW, RGB_YELLOW);
    r[6] = thls2rgb(HSL_CYAN, RGB_CYAN);
    r[7] = thls2rgb(HSL_MAGENTA, RGB_MAGENTA);
    r[8] = thls2rgb(HSL_SILVER, RGB_SILVER);
    r[9] = thls2rgb(HSL_GREY, RGB_GREY);
    r[10] = thls2rgb(HSL_MAROON, RGB_MAROON);
    r[11] = thls2rgb(HSL_OLIVE, RGB_OLIVE);
    r[12] = thls2rgb(HSL_GREEN, RGB_GREEN);
    r[13] = thls2rgb(HSL_PURPLE, RGB_PURPLE);
    r[14] = thls2rgb(HSL_TEAL, RGB_TEAL);
    r[15] = thls2rgb(HSL_NAVY, RGB_NAVY);
}

void test4bitcolors(void (*f)(bool * const)) {
    const char *colors[CLR4BIT] = {
        "BLACK",
        "WHITE",
        "RED",
        "LIME",
        "BLUE",
        "YELLOW",
        "CYAN",
        "MAGENTA",
        "SILVER",
        "GREY",
        "MAROON",
        "OLIVE",
        "GREEN",
        "PURPLE",
        "TEAL",
        "NAVY"
    };
    bool results[CLR4BIT];
    f(results);
    unsigned int i;
    for (i = 0; i < CLR4BIT; ++i) {
        if (results[i]) {
            printf("%s's OK\n", colors[i]);
        } else {
            printf("%s's INCORRECT\n", colors[i]);
        }
    }
}

void dpconvert(int r, int g, int b) {
    struct Rgb t;
    t.r = r * 0xf;
    t.g = g * 0xf;
    t.b = b * 0xf;
    struct Hls z;
    rgb2hsl(&z, &t);
    printf("%d %f %f\n", z.h, z.s, z.l);
    if (z.l < 0.5) {
        z.l = 0.5;
        hsl2rgb(&t, &z);
        printf("%d %d %d\n", t.r, t.g, t.b);
    }
}

int main() {
/*     print_plname("^xf00Unregistered Player^7");
    print_plname("^9[^1S^9]^x469Kom^0ier^7");
    print_plname("^9sjn^5|^9F^5e^9tus^7");
    print_plname("^0[^7>>^0]^xaefdizzy^7");
    print_plname("^x46^xasdf"); */
    print_plname("^xB90Beemann^7");
    printf("Testing hsl 2 rgb\n");
    test4bitcolors(&test_hsl2rgb);
    printf("Testing rgb 2 hsl\n");
    test4bitcolors(&test_rgb2hsl);
    dpconvert(4, 6, 9);
    trgb2hsl(60, 90, 135, 216, 0.38f, 0.38f);
    trgb2hsl(79, 118, 176, 216, 0.38f, 0.50f);
    thls2rgb(216, 0.38f, 0.50f, 79, 118, 176);
}

